Information transmission device, method implemented in such a device, system comprising a plurality of such devices and frame used in such a system

ABSTRACT

This device utilizes frames transported on carriers of different frequencies (BCCH ext CBCH(SD/ 8 )). For processing the information coming from these frames, the device comprises a transceiver circuit ( 10 ) including a phase-locked loop for a local oscillator ( 12 ). The information is distributed over these frames in locations so that the loop has time to phase lock the local oscillator ( 12 ) for receiving information contained in another frame of a different carrier.

[0001] The invention relates to a transmission device utilizing a plurality of frequency frames transmitted on different frequency carriers, the device comprising means for removing information from at least two frames.

[0002] The invention finds important applications notably in cellular mobile radio systems satisfying the standards defining the GPRS system which is derived from the well-known GSM system. Because of the fact that information is transmitted in frames having different frequencies, it happens that the transmission devices lose information. This is the case where information is transmitted in frequency frames BCCH and SMSCB. In time, information is so close together that the local oscillator of the phase-locked type does not have time for a phase alignment from one time space of one frame to another time space of the other frame. Information is then lost.

[0003] The present invention proposes a device of the type mentioned in the opening paragraph which permits to avoid this loss of information when this information is important for the user.

[0004] For this purpose, such a device is characterized in that said tapping means are synchronized for receiving useful information in at least two channels belonging to at least two frames of different carriers.

[0005] The idea of the invention comprises shifting in time the information which is important for the user.

[0006] The invention also relates to a frame corresponding to the measures according to the invention so that said important information is sufficiently separated in time for the local oscillator to be phase-locked and thus to ensure the reception of useful information. The invention relates to a system in which this frame is made use of, and also a transmission method according to which the important information which forms part of the carrier frame of different frequencies is separated sufficiently long so that a phase-locked loop for a local receiving oscillator has the time to be locked.

[0007] These and other aspects of the invention are apparent from and will be elucidated, by way of non-limitating example, with reference to the embodiments described hereinafter.

[0008] In these drawings:

[0009]FIG. 1 shows a system in accordance with the invention;

[0010]FIG. 2 shows how frames are established in accordance with the invention.

[0011]FIG. 1 shows a system in accordance with the invention represented in a diagrammatic way. This system satisfies the GSM standards which imply a multitude of cells which are made dependent on one base station 1. A plurality of transmission devices (mobile stations) M1, M2, M3 . . . may be located in this cell. In FIG. 1 only the station M1 is shown a little more in detail. The exchange of information between the mobile stations takes place by radio channel by means of time-multiplexed signal frames. Two of these frames BCCH ext and CBCH(SD/8) are shown in FIG. 2. These frames are conveyed by a carrier of a certain frequency. For receiving and transmitting these signals the mobile stations have a transceiver circuit referred to as 10 in FIG. 1 with respect to the mobile station M1. These circuits 10 comprise a local oscillator 12 which forms part of a phase-locked loop. When a frequency change is imposed, the locking of this loop requires a certain time of which the duration is longer than the time slots used by the time multiplex constituting said frames. Thus certain information runs the risk of being lost during a change of frames. The invention proposes measures for avoiding this sort of inconvenience. The invention specially fits in the framework of GSM-GPRS standards. On this subject could be consulted the description of the standard more specifically:

[0012] 3GPP TS 05.02−v8.10.0 (20001).

[0013] When the mobile station is in the 51 mode (packet idle 51 mode) it is to read the time slot Si13 every 30 s. This time slot is transported on the frame BCCH or its extended variant BCCH ext (see 6.3.1.3 of the standard mentioned earlier). The term “packet idle 51” relates to the GPRS idle mode in the configuration 51. If, thus, this time slot is situated in this frame BCCH, there will be a conflict with the time slots that relate to the data blocks SMSCB (case where SMSCB is situated on the sub-channel 2 of SD/8).

[0014] It will be recalled that:

[0015] BCCH (Broadcast Control Channel) is a channel utilized for broadcasting information relating to the cell in which the mobile is located. In FIG. 2 the transmitted blocks of importance to the mobile station are shown by FIGS. 6, 7, 8 and 9.

[0016] SMSCB is used for broadcasting short messages, for example, relating to the Met office, road traffic etc. These blocks are located in frames 8 to 11 (modulo 51) in the configuration SD/8 of CBCH.

[0017] While reference is made to FIG. 2, it is supposed by way of example that to the mobile station is assigned the time slot 0 in the idle mode mentioned above. If messages are transmitted while the time slot 1 is utilized in another, different carrier frame, it is taken into consideration that the elapse of time r that exists between the time slots that transport important information is too short for the mobile station to be able to process it. There is not enough time for the phase locking. To avoid this conflict there is proposed to modify the location of the time slots as the arrows in FIG. 1 show.

[0018] Within the framework of the standards mentioned above, it is possible by way of example to change the arrangement in the following manner:

[0019] If Si13 is placed on BCCH ext, the messages SMSCB will be broadcast in accordance with the configuration SD/4.

[0020] If SI13 is placed on BCCH normal, the messages will be broadcast according to the configuration SD/4 or SD/8. 

1. A transmission device utilizing a plurality of frequency frames transmitted on different frequency carriers, the device comprising means for tapping information from at least two frames, characterized in that said tapping means are synchronized for receiving useful information in at least two channels belonging to at least two frames of different carriers.
 2. A device as claimed in claim 1, comprising a receiving circuit which has a local oscillator included in a phase-locked loop presenting a certain locking time, characterized in that the tapping means are synchronized for tapping useful information separated by an elapse of time that is greater than or equal to this locking time.
 3. A transmission system comprising at least one base station and at least a device as claimed in claim 1 or 2, intended for transmitting important information on different frequency frames for the users of said devices, characterized in that it comprises means for transmitting this information on frames of different frequencies and times separated by a certain elapse of time sufficient to permit good reception.
 4. A transmission system comprising at least a base station and at least a device as claimed in claim 2, characterized in that the elapse of time is at least equal to the locking time.
 5. Frames utilized in a system as claimed in any one of the claims 3 and 4, transported on different carriers, characterized in that the important information is transmitted in different time periods.
 6. Frames as claimed in claim 5, characterized in that they correspond to the GSM standards, to the “BCCH extended frames and CBCH(SD/8), respectively, and in that the important information is shifted with time.
 7. A system as claimed in claim 3 or 4, characterized in that it utilizes frames as claimed in claim
 6. 8. A device as claimed in claim 1 or 2, characterized in that the tapping means are synchronized for receiving important information of the frames as claimed in claim
 6. 9. A transmission method implemented in a system as claimed in any one of the claims 3, 4 and 7 according to which the important information which forms part of different frequency frames is separated for a sufficient period of time, so that a phase-locked loop for a local receiving oscillator has the time to be locked. 